"""
Support for dynamically modifying output attributes.
"""

import logging
import os.path
import re
import string

from galaxy import util

log = logging.getLogger(__name__)

# Attributes tool developer may want to query on dataset collections.
COLLECTION_ATTRIBUTES = ["collection_type"]


class ToolOutputActionGroup(object):
    """
    Manages a set of tool output dataset actions directives
    """
    tag = "group"

    def __init__(self, parent, config_elem):
        self.parent = parent
        self.actions = []
        if config_elem is not None:
            for elem in config_elem:
                if elem.tag == "conditional":
                    self.actions.append(ToolOutputActionConditional(self, elem))
                elif elem.tag == "action":
                    self.actions.append(ToolOutputAction.from_elem(self, elem))
                else:
                    log.debug("Unknown ToolOutputAction tag specified: %s" % elem.tag)

    def apply_action(self, output_dataset, other_values):
        for action in self.actions:
            action.apply_action(output_dataset, other_values)

    @property
    def tool(self):
        return self.parent.tool

    def __len__(self):
        return len(self.actions)


class ToolOutputActionConditionalWhen(ToolOutputActionGroup):
    tag = "when"

    @classmethod
    def from_elem(cls, parent, when_elem):
        """Loads the proper when by attributes of elem"""
        when_value = when_elem.get("value", None)
        if when_value is not None:
            return ValueToolOutputActionConditionalWhen(parent, when_elem, when_value)
        else:
            when_value = when_elem.get("datatype_isinstance", None)
            if when_value is not None:
                return DatatypeIsInstanceToolOutputActionConditionalWhen(parent, when_elem, when_value)
        raise TypeError("When type not implemented")

    def __init__(self, parent, config_elem, value):
        super(ToolOutputActionConditionalWhen, self).__init__(parent, config_elem)
        self.value = value

    def is_case(self, output_dataset, other_values):
        raise TypeError("Not implemented")

    def get_ref(self, output_dataset, other_values):
        ref = other_values
        for ref_name in self.parent.name:
            assert ref_name in ref, "Required dependency '%s' not found in incoming values" % ref_name
            ref = ref.get(ref_name)
        return ref

    def apply_action(self, output_dataset, other_values):
        if self.is_case(output_dataset, other_values):
            return super(ToolOutputActionConditionalWhen, self).apply_action(output_dataset, other_values)


class ValueToolOutputActionConditionalWhen(ToolOutputActionConditionalWhen):
    tag = "when value"

    def is_case(self, output_dataset, other_values):
        ref = self.get_ref(output_dataset, other_values)
        return bool(str(ref) == self.value)


class DatatypeIsInstanceToolOutputActionConditionalWhen(ToolOutputActionConditionalWhen):
    tag = "when datatype_isinstance"

    def __init__(self, parent, config_elem, value):
        super(DatatypeIsInstanceToolOutputActionConditionalWhen, self).__init__(parent, config_elem, value)
        self.value = type(self.tool.app.datatypes_registry.get_datatype_by_extension(value))

    def is_case(self, output_dataset, other_values):
        ref = self.get_ref(output_dataset, other_values)
        return isinstance(ref.datatype, self.value)


class ToolOutputActionConditional(object):
    tag = "conditional"

    def __init__(self, parent, config_elem):
        self.parent = parent
        self.name = config_elem.get('name', None)
        assert self.name is not None, "Required 'name' attribute missing from ToolOutputActionConditional"
        self.name = self.name.split('.')
        self.cases = []
        for when_elem in config_elem.findall('when'):
            self.cases.append(ToolOutputActionConditionalWhen.from_elem(self, when_elem))

    def apply_action(self, output_dataset, other_values):
        for case in self.cases:
            case.apply_action(output_dataset, other_values)

    @property
    def tool(self):
        return self.parent.tool


class ToolOutputAction(object):
    tag = "action"

    @classmethod
    def from_elem(cls, parent, elem):
        """Loads the proper action by the type attribute of elem"""
        action_type = elem.get('type', None)
        assert action_type is not None, "Required 'type' attribute missing from ToolOutputAction"
        return action_types[action_type](parent, elem)

    def __init__(self, parent, elem):
        self.parent = parent
        self.default = elem.get('default', None)
        option_elem = elem.find('option')
        self.option = ToolOutputActionOption.from_elem(self, option_elem)

    def apply_action(self, output_dataset, other_values):
        raise TypeError("Not implemented")

    @property
    def tool(self):
        return self.parent.tool


class ToolOutputActionOption(object):
    tag = "object"

    @classmethod
    def from_elem(cls, parent, elem):
        """Loads the proper action by the type attribute of elem"""
        if elem is None:
            option_type = NullToolOutputActionOption.tag  # no ToolOutputActionOption's have been defined, use implicit NullToolOutputActionOption
        else:
            option_type = elem.get('type', None)
        assert option_type is not None, "Required 'type' attribute missing from ToolOutputActionOption"
        return option_types[option_type](parent, elem)

    def __init__(self, parent, elem):
        self.parent = parent
        self.filters = []
        if elem is not None:
            for filter_elem in elem.findall('filter'):
                self.filters.append(ToolOutputActionOptionFilter.from_elem(self, filter_elem))

    def get_value(self, other_values):
        raise TypeError("Not implemented")

    @property
    def tool(self):
        return self.parent.tool


class NullToolOutputActionOption(ToolOutputActionOption):
    tag = "null_option"

    def get_value(self, other_values):
        return None


class FromFileToolOutputActionOption(ToolOutputActionOption):
    tag = "from_file"

    def __init__(self, parent, elem):
        super(FromFileToolOutputActionOption, self).__init__(parent, elem)
        self.name = elem.get('name', None)
        assert self.name is not None, "Required 'name' attribute missing from FromFileToolOutputActionOption"
        self.column = elem.get('column', None)
        assert self.column is not None, "Required 'column' attribute missing from FromFileToolOutputActionOption"
        self.column = int(self.column)
        self.offset = elem.get('offset', -1)
        self.offset = int(self.offset)
        self.separator = elem.get('separator', '\t')
        self.options = []
        data_file = self.name
        if not os.path.isabs(data_file):
            data_file = os.path.join(self.tool.app.config.tool_data_path, data_file)
        for line in open(data_file):
            self.options.append(line.rstrip('\n\r').split(self.separator))

    def get_value(self, other_values):
        options = self.options
        for filter in self.filters:
            options = filter.filter_options(options, other_values)
        try:
            if options:
                return str(options[self.offset][self.column])
        except Exception as e:
            log.debug("Error in FromFileToolOutputActionOption get_value: %s" % e)
        return None


class FromParamToolOutputActionOption(ToolOutputActionOption):
    tag = "from_param"

    def __init__(self, parent, elem):
        super(FromParamToolOutputActionOption, self).__init__(parent, elem)
        self.name = elem.get('name', None)
        assert self.name is not None, "Required 'name' attribute missing from FromFileToolOutputActionOption"
        self.name = self.name.split('.')
        self.column = elem.get('column', 0)
        self.column = int(self.column)
        self.offset = elem.get('offset', -1)
        self.offset = int(self.offset)
        self.param_attribute = elem.get('param_attribute', [])
        if self.param_attribute:
            self.param_attribute = self.param_attribute.split('.')

    def get_value(self, other_values):
        value = other_values
        for ref_name in self.name:
            assert ref_name in value, "Required dependency '%s' not found in incoming values" % ref_name
            value = value.get(ref_name)
        for attr_name in self.param_attribute:
            # if the value is a list from a repeat tag you can access the first element of the repeat with
            # artifical 'first' attribute_name. For example: .. param_attribute="first.input_mate1.ext"
            if isinstance(value, list) and attr_name == 'first':
                value = value[0]
            elif isinstance(value, dict):
                value = value[attr_name]
            elif hasattr(value, "collection") and value not in COLLECTION_ATTRIBUTES:
                # if this is an HDCA for instance let reverse.ext grab
                # the reverse element and then continue for loop to grab
                # dataset extension
                try:
                    value = value.collection[attr_name].element_object
                except KeyError:
                    value = value.child_collection[attr_name].element_object
            elif hasattr(value, "collection") and value in COLLECTION_ATTRIBUTES:
                value = getattr(value.collection, attr_name)
            else:
                value = getattr(value, attr_name)
        options = [[str(value)]]
        for filter in self.filters:
            options = filter.filter_options(options, other_values)
        try:
            if options:
                return str(options[self.offset][self.column])
        except Exception as e:
            log.debug("Error in FromParamToolOutputActionOption get_value: %s" % e)
        return None


class FromDataTableOutputActionOption(ToolOutputActionOption):
    tag = "from_data_table"

    # TODO: allow accessing by column 'name' not just index
    def __init__(self, parent, elem):
        super(FromDataTableOutputActionOption, self).__init__(parent, elem)
        self.name = elem.get('name', None)
        assert self.name is not None, "Required 'name' attribute missing from FromDataTableOutputActionOption"
        self.missing_tool_data_table_name = None
        if self.name in self.tool.app.tool_data_tables:
            self.options = self.tool.app.tool_data_tables[self.name].get_fields()
            self.column = elem.get('column', None)
            assert self.column is not None, "Required 'column' attribute missing from FromDataTableOutputActionOption"
            self.column = int(self.column)
            self.offset = elem.get('offset', -1)
            self.offset = int(self.offset)
        else:
            self.options = []
            self.missing_tool_data_table_name = self.name

    def get_value(self, other_values):
        if self.options:
            options = self.options
        else:
            options = []
        for filter in self.filters:
            options = filter.filter_options(options, other_values)
        try:
            if options:
                return str(options[self.offset][self.column])
        except Exception as e:
            log.debug("Error in FromDataTableOutputActionOption get_value: %s" % e)
        return None


class MetadataToolOutputAction(ToolOutputAction):
    tag = "metadata"

    def __init__(self, parent, elem):
        super(MetadataToolOutputAction, self).__init__(parent, elem)
        self.name = elem.get('name', None)
        assert self.name is not None, "Required 'name' attribute missing from MetadataToolOutputAction"

    def apply_action(self, output_dataset, other_values):
        value = self.option.get_value(other_values)
        if value is None and self.default is not None:
            value = self.default
        if value is not None:
            setattr(output_dataset.metadata, self.name, value)


class FormatToolOutputAction(ToolOutputAction):
    tag = "format"

    def __init__(self, parent, elem):
        super(FormatToolOutputAction, self).__init__(parent, elem)
        self.default = elem.get('default', None)

    def apply_action(self, output_dataset, other_values):
        value = self.option.get_value(other_values)
        if value is None and self.default is not None:
            value = self.default
        if value is not None:
            output_dataset.extension = value


class ToolOutputActionOptionFilter(object):
    tag = "filter"

    @classmethod
    def from_elem(cls, parent, elem):
        """Loads the proper action by the type attribute of elem"""
        filter_type = elem.get('type', None)
        assert filter_type is not None, "Required 'type' attribute missing from ToolOutputActionOptionFilter"
        return filter_types[filter_type](parent, elem)

    def __init__(self, parent, elem):
        self.parent = parent

    def filter_options(self, options, other_values):
        raise TypeError("Not implemented")

    @property
    def tool(self):
        return self.parent.tool


class ParamValueToolOutputActionOptionFilter(ToolOutputActionOptionFilter):
    tag = "param_value"

    def __init__(self, parent, elem):
        super(ParamValueToolOutputActionOptionFilter, self).__init__(parent, elem)
        self.ref = elem.get('ref', None)
        if self.ref:
            self.ref = self.ref.split('.')
        self.value = elem.get('value', None)
        assert self.ref != self.value, "Required 'ref' or 'value' attribute missing from ParamValueToolOutputActionOptionFilter"
        self.column = elem.get('column', None)
        assert self.column is not None, "Required 'column' attribute missing from ParamValueToolOutputActionOptionFilter"
        self.column = int(self.column)
        self.keep = util.string_as_bool(elem.get("keep", 'True'))
        self.compare = parse_compare_type(elem.get('compare', None))
        self.cast = parse_cast_attribute(elem.get("cast", None))
        self.param_attribute = elem.get('param_attribute', [])
        if self.param_attribute:
            self.param_attribute = self.param_attribute.split('.')

    def filter_options(self, options, other_values):
        if self.ref:
            # find ref value
            value = other_values
            for ref_name in self.ref:
                assert ref_name in value, "Required dependency '%s' not found in incoming values" % ref_name
                value = value.get(ref_name)
            for attr_name in self.param_attribute:
                value = getattr(value, attr_name)
            value = str(value)
        else:
            value = self.value
        value = self.cast(value)
        rval = []
        for fields in options:
            try:
                if self.keep == (self.compare(self.cast(fields[self.column]), value)):
                    rval.append(fields)
            except Exception as e:
                log.debug(e)
                continue  # likely a bad cast or column out of range
        return rval


class InsertColumnToolOutputActionOptionFilter(ToolOutputActionOptionFilter):
    tag = "insert_column"

    def __init__(self, parent, elem):
        super(InsertColumnToolOutputActionOptionFilter, self).__init__(parent, elem)
        self.ref = elem.get('ref', None)
        if self.ref:
            self.ref = self.ref.split('.')
        self.value = elem.get('value', None)
        assert self.ref != self.value, "Required 'ref' or 'value' attribute missing from InsertColumnToolOutputActionOptionFilter"
        self.column = elem.get('column', None)  # None is append
        if self.column:
            self.column = int(self.column)
        self.iterate = util.string_as_bool(elem.get("iterate", 'False'))

    def filter_options(self, options, other_values):
        if self.ref:
            # find ref value
            value = other_values
            for ref_name in self.ref:
                assert ref_name in value, "Required dependency '%s' not found in incoming values" % ref_name
                value = value.get(ref_name)
            value = str(value)
        else:
            value = self.value
        if self.iterate:
            value = int(value)
        rval = []
        for fields in options:
            if self.column is None:
                rval.append(fields + [str(value)])
            else:
                fields = list(fields)
                fields.insert(self.column, str(value))
                rval.append(fields)
            if self.iterate:
                value += 1
        return rval


class MultipleSplitterFilter(ToolOutputActionOptionFilter):
    tag = "multiple_splitter"

    def __init__(self, parent, elem):
        super(MultipleSplitterFilter, self).__init__(parent, elem)
        self.column = elem.get('column', None)
        assert self.column is not None, "Required 'column' attribute missing from MultipleSplitterFilter"
        self.column = int(self.column)
        self.separator = elem.get("separator", ",")

    def filter_options(self, options, other_values):
        rval = []
        for fields in options:
            for field in fields[self.column].split(self.separator):
                rval.append(fields[0:self.column] + [field] + fields[self.column + 1:])
        return rval


class ColumnStripFilter(ToolOutputActionOptionFilter):
    tag = "column_strip"

    def __init__(self, parent, elem):
        super(ColumnStripFilter, self).__init__(parent, elem)
        self.column = elem.get('column', None)
        assert self.column is not None, "Required 'column' attribute missing from ColumnStripFilter"
        self.column = int(self.column)
        self.strip = elem.get("strip", None)

    def filter_options(self, options, other_values):
        rval = []
        for fields in options:
            rval.append(fields[0:self.column] + [fields[self.column].strip(self.strip)] + fields[self.column + 1:])
        return rval


class ColumnReplaceFilter(ToolOutputActionOptionFilter):
    tag = "column_replace"

    def __init__(self, parent, elem):
        super(ColumnReplaceFilter, self).__init__(parent, elem)
        self.old_column = elem.get('old_column', None)
        self.old_value = elem.get("old_value", None)
        self.new_value = elem.get("new_value", None)
        self.new_column = elem.get('new_column', None)
        assert (bool(self.old_column) ^ bool(self.old_value) and bool(self.new_column) ^ bool(self.new_value)), "Required 'old_column' or 'old_value' and 'new_column' or 'new_value' attribute missing from ColumnReplaceFilter"
        self.column = elem.get('column', None)
        assert self.column is not None, "Required 'column' attribute missing from ColumnReplaceFilter"
        self.column = int(self.column)
        if self.old_column is not None:
            self.old_column = int(self.old_column)
        if self.new_column is not None:
            self.new_column = int(self.new_column)

    def filter_options(self, options, other_values):
        rval = []
        for fields in options:
            if self.old_column:
                old_value = fields[self.old_column]
            else:
                old_value = self.old_value
            if self.new_column:
                new_value = fields[self.new_column]
            else:
                new_value = self.new_value
            rval.append(fields[0:self.column] + [fields[self.column].replace(old_value, new_value)] + fields[self.column + 1:])
        return rval


class MetadataValueFilter(ToolOutputActionOptionFilter):
    tag = "metadata_value"

    def __init__(self, parent, elem):
        super(MetadataValueFilter, self).__init__(parent, elem)
        self.ref = elem.get('ref', None)
        assert self.ref is not None, "Required 'ref' attribute missing from MetadataValueFilter"
        self.ref = self.ref.split('.')
        self.name = elem.get('name', None)
        assert self.name is not None, "Required 'name' attribute missing from MetadataValueFilter"
        self.column = elem.get('column', None)
        assert self.column is not None, "Required 'column' attribute missing from MetadataValueFilter"
        self.column = int(self.column)
        self.keep = util.string_as_bool(elem.get("keep", 'True'))
        self.compare = parse_compare_type(elem.get('compare', None))

    def filter_options(self, options, other_values):
        ref = other_values
        for ref_name in self.ref:
            assert ref_name in ref, "Required dependency '%s' not found in incoming values" % ref_name
            ref = ref.get(ref_name)
        value = str(getattr(ref.metadata, self.name))
        rval = []
        for fields in options:
            if self.keep == (self.compare(fields[self.column], value)):
                rval.append(fields)
        return rval


class BooleanFilter(ToolOutputActionOptionFilter):
    tag = "boolean"

    def __init__(self, parent, elem):
        super(BooleanFilter, self).__init__(parent, elem)
        self.column = elem.get('column', None)
        assert self.column is not None, "Required 'column' attribute missing from BooleanFilter"
        self.column = int(self.column)
        self.keep = util.string_as_bool(elem.get("keep", 'True'))
        self.cast = parse_cast_attribute(elem.get("cast", None))

    def filter_options(self, options, other_values):
        rval = []
        for fields in options:
            try:
                value = fields[self.column]
                value = self.cast(value)
            except Exception:
                value = False  # unable to cast or access value; treat as false
            if self.keep == bool(value):
                rval.append(fields)
        return rval


class StringFunctionFilter(ToolOutputActionOptionFilter):
    tag = "string_function"

    def __init__(self, parent, elem):
        super(StringFunctionFilter, self).__init__(parent, elem)
        self.column = elem.get('column', None)
        assert self.column is not None, "Required 'column' attribute missing from StringFunctionFilter"
        self.column = int(self.column)
        self.function = elem.get("name", None)
        assert self.function in ['lower', 'upper'], "Required function 'name' missing or invalid from StringFunctionFilter"  # add function names as needed
        self.function = getattr(string, self.function)

    def filter_options(self, options, other_values):
        rval = []
        for fields in options:
            rval.append(fields[0:self.column] + [self.function(fields[self.column])] + fields[self.column + 1:])
        return rval


# tag to class lookups
action_types = {}
for action_type in [MetadataToolOutputAction, FormatToolOutputAction]:
    action_types[action_type.tag] = action_type

option_types = {}
for option_type in [NullToolOutputActionOption, FromFileToolOutputActionOption, FromParamToolOutputActionOption, FromDataTableOutputActionOption]:
    option_types[option_type.tag] = option_type

filter_types = {}
for filter_type in [ParamValueToolOutputActionOptionFilter, InsertColumnToolOutputActionOptionFilter, MultipleSplitterFilter, ColumnStripFilter, MetadataValueFilter, BooleanFilter, StringFunctionFilter, ColumnReplaceFilter]:
    filter_types[filter_type.tag] = filter_type


# helper classes
# determine cast function
def parse_cast_attribute(cast):
    if cast == 'string_as_bool':
        cast = util.string_as_bool
    elif cast == 'int':
        cast = int
    elif cast == 'str':
        cast = str
    else:
        # return value as-is
        def cast(x):
            return x
    return cast


# comparison
def parse_compare_type(compare):
    if compare is None:
        compare = 'eq'
    assert compare in compare_types, "Invalid compare type specified: %s" % compare
    return compare_types[compare]


def compare_eq(value1, value2):
    return value1 == value2


def compare_neq(value1, value2):
    return value1 != value2


def compare_gt(value1, value2):
    return value1 > value2


def compare_gte(value1, value2):
    return value1 >= value2


def compare_lt(value1, value2):
    return value1 < value2


def compare_lte(value1, value2):
    return value1 <= value2


def compare_in(value1, value2):
    return value1 in value2


def compare_startswith(value1, value2):
    return value1.startswith(value2)


def compare_endswith(value1, value2):
    return value1.endswith(value2)


def compare_re_search(value1, value2):
    # checks pattern=value2 in value1
    return bool(re.search(value2, value1))


compare_types = {
    'eq': compare_eq,
    'neq': compare_neq,
    'gt': compare_gt,
    'gte': compare_gte,
    'lt': compare_lt,
    'lte': compare_lte,
    'in': compare_in,
    'startswith': compare_startswith,
    'endswith': compare_endswith,
    "re_search": compare_re_search
}
